DE112006000754B4 - Portable motion-activated position reporting device - Google Patents

Abstract

A portable motion-activated position reporting device (101) comprising: a controller (201); a query broadcast component (211) coupled to the controller (201) for automatically communicating, and using identity, using a wireless communications system having a data storage device (130) disposed on an object in which an identity unique to the object is stored to recieve; a position determining component (206) coupled to the controller (201) and for determining a geographical location of the position reporting device (101); a wireless communication component (203) coupled to the controller (201) for sending a message conveying the identity and the geographic location; and a triggering component (209) coupled to the controller (201) for generating a signal to the controller (201) when the triggering component (209) detects movement of the position reporting device (101), the controller (201) the interrogator transmitter component (211) and the position reporting device (101) are activated in response to the signal.

Description

FIELD OF THE INVENTION

The embodiments described in this document relate to a device for determining and reporting the position of a person or an object.

RELATED APPLICATIONS

The present invention takes advantage U.S. Patent No. 6,801,853 (USPTO Application No. 10 / 222,532, filed August 15, 2002) entitled "A Portable Motion-Activated Position Reporting Device" by Dennis Workman, assigned to the assignee of the present invention, which is incorporated herein by reference in its entirety ,

The present invention takes advantage of USPTO Application No. 11 / 097,425, filed March 31, 2005, entitled "Geographic Marking Device with RFID Transponder" by Jeff Hamilton, assigned to the assignee of the present invention, incorporated herein by reference in its entirety is referenced.

GENERAL PRIOR ART

Position reporting devices are often used to locate and report the position of a person or object. A typical location reporting device combines a navigation system, such as the Global Positioning System (GPS) module, with a mobile communication system, such as a radio modem, to determine the location or geographic location of a person or asset being tracked, and their / to report his position to a tracking device. Position reporting devices are used in a variety of systems where timely position information is required, such as fleet tracking and asset recovery systems.

Fleet tracking systems allow a user to monitor the position of a ship or vehicle carrying a position reporting device. For example, the heading of a vehicle being tracked may be inferred using successive position fixes sent by the position reporting device. Similarly, it can be concluded that the vehicle does not move when successive position fixes report the same position. Fleet tracking systems are commonly used by delivery services for route planning and transportation of vehicles. Asset recovery systems report the location of stolen or missing property (such as a stolen car) to a service provider or the police to help them regain ownership.

However, many potential users perceive the cost of position reporting devices to be prohibitive compared to the value of the asset being tracked. The cost of many position reporting devices is between $ 200- $ 300 and their market price is between $ 500- $ 600. Thus, the use of position reporting devices has typically been limited to high value articles such as cars or other vehicles.

Another disadvantage associated with position reporting devices is the amount of power they consume. While there are battery operated position reporting devices, the amount of power they consume when turned on requires frequent battery replacement to continue operation. This makes the use of position reporting devices uncomfortable for some users in that they require excessive maintenance to continue operation.

Because rental car fleets typically rent only a fraction of their vehicles at a given time. For example, in a rental car fleet of 500 vehicles, on average, only 300 vehicles may be leased at a given time. Thus, there is typically no need for a dedicated position reporting device for each vehicle. Therefore, a dedicated position reporting device is not needed for each vehicle and can be costly in terms of purchase and maintenance.

From the publication US 2004/0034470 A1 For example, a position reporting device has been disclosed that includes a controller, a position determination component, a wireless communication component, and a triggering component. The trip component detects movement of the device and generates a signal indicative of movement to the controller. The controller then activates the position reporting device.

BRIEF SUMMARY OF THE INVENTION

Accordingly, there is a need for a low cost portable position reporting device that is small enough to be easily concealed on an asset being tracked. During the aforementioned need is covered, it is desirable to provide a position reporting device that requires minimal installation and maintenance on the part of the user, and that can be easily moved from one asset to another as needed. In addition, there is a need to easily and accurately identify which asset is tracked after the position reporting device has been moved to another asset. While meeting the aforementioned needs, there is a continuing need for a position reporting device with an independent power source to enable the tracking of assets that can not power the position reporting device. There is also a need for a method for reducing the power consumption of the aforementioned device to extend the life of the power source and thus minimize the need for maintenance of the device. There is also a need to identify quickly and accurately which asset is tracked.

This document describes a portable motion-enabled position reporting device. In one embodiment, a controller is coupled to a query transmitter component, a position determination component, a wireless communication component, and a triggering component. In one embodiment, the triggering component detects the movement of the position reporting device and generates a signal indicative of the motion to the controller. The controller activates the interrogator transmitter component and the position reporting device in response to the signal. Once activated, the polling station component automatically receives the identity of the asset being tracked.

In embodiments of the present invention, the identity of an asset being tracked is stored on a data storage device located with the asset. In embodiments of the present invention, the data storage device may be coupled to the asset being tracked. The data storage device conveys the identity of the asset being tracked to the position reporting device. In embodiments of the present invention, the data storage device communicates with the interrogator of the position reporting device using a wireless communication system.

The position monitoring device uses the interrogator transmitter component to wirelessly access the identity of the vehicle when a movement of the position monitoring device is detected. Consequently, it is not necessary for a human to tune the identification number of the vehicle with the identification number of the position reporting device. This allows the position reporting device to move from one asset to another by decreasing the time required to identify which asset is being monitored by a particular position reporting device. In addition, embodiments of the present invention reduce the likelihood of a transmission error in recording the identification number of the vehicle and the position reporting device and / or in their tuning in a database.

Because embodiments of the present invention facilitate moving a position reporting device between a plurality of assets, the cost of operating the position reporting device due to a single device may be used to monitor a plurality of assets. Consequently, the need for a dedicated position reporting device for each asset being monitored is minimized.

BRIEF DESCRIPTION OF THE DRAWINGS

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments of the present invention and, together with the description, serve to explain the principles of the invention. Unless specifically noted, the drawings referred to in this specification are not to be considered to scale.

1 FIG. 10 is a diagram of a position tracking system utilized in accordance with embodiments of the present invention. FIG.

2 FIG. 10 is a block diagram of an exemplary portable motion-enabled position reporting device in accordance with embodiments of the present invention. FIG.

3 FIG. 10 is a diagram showing the operating states of a portable position reporting device used in accordance with embodiments of the present invention. FIG.

4 FIG. 10 is a flowchart of a method for monitoring the geographical position of an asset according to an embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT

Reference will now be made in detail to the embodiments of the present invention, examples of which are illustrated in the accompanying drawings. While the present invention will be described in conjunction with the following embodiments, it will be understood that they are not intended to limit the present invention to these embodiments alone. On the contrary, the present invention is intended to cover alternatives, modifications, and equivalents, which may include the spirit and scope of the present invention as described by the appended claims. Furthermore, in the following detailed description of the present invention, numerous specific details are set forth in order to provide a thorough understanding of the present invention. However, embodiments of the present invention may be practiced without these specific details. In other instances, well-known methods, processes, components, and circuits have not been described in detail so as not to unnecessarily obscure the understanding of the aspects of the present invention.

The present invention is a portable motion-enabled position reporting device and system that utilizes this device to automatically identify an asset being monitored. Embodiments of the present invention may serve to monitor the position of an asset (eg, property or a person) and may be used to detect and report unauthorized movement of the asset and used to recover it if not Approved movement takes place. Embodiments of the present invention may utilize a geofencing system in which a set of position coordinates is provided that determines an area in which the asset can be moved without triggering an alarm. If the asset is moved out of position coordinates, a monitoring service notifies the owner of the asset and / or enforcement authorities to enable the asset to be recovered.

Embodiments of the present invention utilize a triggering component to detect the movement of the device and send a signal that triggers the activation of the device as the asset it monitors is moved. This prolongs the battery life of the reporting device by allowing it to remain in an operating state that draws a minimum amount of current until the movement of the device has been detected. When the movement has been detected, the device automatically enters an active operating state and determines its geographical location using a positioning system and transmits that position to the monitoring service. Embodiments of the present invention further utilize an automatic identification system to identify an asset being monitored by the position reporting device. This allows moving the position reporting device from one asset to another without the need to manually record the identification number of the asset. When the position monitor is activated, it can wirelessly communicate with a data storage device to access the identity of the asset being monitored. The position reporting device may also store geographic position information about the data storage device.

1 is a diagram of a position tracking system 100 used in accordance with embodiments of the present invention. The system 100 includes a position reporting device 101 , a position determination system (eg, the position determination system 102 or 103 ) and a position tracking service provider 104 , In the embodiment of 1 becomes the reporting device 101 in a vehicle 120 worn and used to its position the service provider 104 or a user to report. In the embodiment of 1 becomes the device 101 used to determine the position of an asset (such as the vehicle 120 ) to monitor and report.

While 1 shows how the position reporting device 101 is used to report the position of a vehicle, the present invention is well suited to monitor and report the location of a variety of assets that a user may wish to monitor. If the vehicle 120 is moved, the device detects 101 the movement determines its geographical location using the positioning system 102 and 103 and reports their position and thus the position of the vehicle 120 the service provider 104 ,

Also in 1 is a data storage device 130 shown. In embodiments of the present invention, the data storage device comprises 130 a Radio Frequency Identification (RFID) tag. RFID is a type of automatic identification technology that typically uses radio waves to convey the identity of a person or object. A typical RFID tag (eg. 130 ) comprises a microchip connected to an antenna coupled and mounted on a substrate. For the purpose of the present invention, the data storage device 130 as an RFID tag 130 Referenced. However, embodiments of the present invention are not limited to this type of data storage device alone and may use other data storage devices and transmitting devices. In embodiments of the present invention, an RFID tag 130 using, for example, a mechanical fastener to a vehicle 120 coupled. The RFID tag 130 stays with the vehicle 120 when it is moved. In another embodiment, the RFID tag may simply be in the vehicle 120 placed in a place where it probably will not be disturbed.

Passive RFID tags have no power source or transmitter. Instead, they collect electromagnetic energy from an interrogator (eg, a geographic data interrogator 110 ). The microchip in the RFID tag then uses this energy to change the load on the antenna to return an altered signal that transmits information to the interrogator.

Active RFID tags have a transmitter and a power source, such as a battery. The power source is used to operate the circuitry of the RFID tag and send a signal to an interrogator. Active RFID tags can be either transponders that "wake up" when they detect a signal from an interrogator, or beacon transmitters that emit a signal at pre-set intervals.

Semi-active RFID tags draw power from a power source to operate the circuitry of the RFID tag, but communicate by drawing power from the electromagnetic energy emitted by the interrogator. Typically, active and semi-active RFID tags cost more than passive RFID tags but have a larger coverage area. In embodiments of the present invention, the RFID tag may include an active, semi-active, or passive RFID tag.

RFID tags can also be classified in the way data is stored or accessed. Read Only tags store information during the manufacturing process that can not be changed or expanded in use. The information from read / write RFID tags can expand existing information on the tag or overwrite it. Typically, a serial number written at the time of manufacture can not be overwritten. In addition, some information written subsequent to the day may be locked to prevent overwriting. Write Once, Read Only (WORM) tags can only be written once and then read only. In embodiments of the present invention, the RFID tag 130 be a read-only RFID tag, a read / write RFID tag, or a WORM RFID tag.

In embodiments of the present invention, the RFID tag becomes 130 used to store information that contains an asset (such as the vehicle 120 ) clearly identify. For example, the serial number of the vehicle 120 or other unique identification of the asset from the RFID tag 130 saved. In another embodiment, the RFID tag 130 a unique identification, which is permanently stored on the production. If the RFID tag 130 in the vehicle 120 is placed, it becomes the vehicle 120 for example, in a database assigned by the service provider 104 or by a user of the system 100 is maintained.

In operation, when the position reporting device detects movement, it automatically accesses the identity of the asset that is from the RFID tag 130 is monitored. This information can be sent when posting a position report to a service provider 104 is sent. Consequently, the identity of the asset being monitored and its geographic location become the service provider 104 reported when a change in the state of movement of the asset is detected.

2 FIG. 10 is a block diagram of an example position reporting device. FIG 101 used in accordance with embodiments of the present invention. In 2 is a controller 201 to a power source 202 coupled. The control 201 serves to receive and execute commands for determining a geographical location and to send the position to the service provider 104 , In one embodiment, the power source is 202 a long-term power source such as a battery or a plurality of batteries (eg 4 alkaline AA batteries). However, while the present invention provides a long term power source, the present invention is well suited to use other power sources as well. In embodiments of the present invention, the power source 202 to an external power source, such as the vehicle's electrical system 120 be coupled. The power source 202 For example, with the electrical system of the vehicle 120 hardwired or may be connected to an accessory power outlet or cigarette lighter socket in the vehicle using an adapter plug 120 be coupled.

The control 201 is also connected to a wireless communication component 203 and a position determination component 206 coupled. The wireless communication component 203 is used to send and receive wireless messages (such as data and commands). In an embodiment, the wireless communication component comprises a wireless radio antenna 204 and a wireless radio modem 205 , In one embodiment, the device sends 101 using Short Message Service (SMS) messages and receive them. However, the present invention is well suited to use other message formats as well.

The positioning system 206 serves to determine the location of the device 101 , In one embodiment of the present invention, the position determination component comprises 206 a Global Positioning System (GPS) antenna 207 and a GPS receiver 208 , In particular, while the present embodiment recites a GPS positioning system, the present invention is also well suited to use a variety of terrestrial based and satellite based positioning systems.

In 2 is the controller 201 also to a triggering component 209 coupled. The triggering component 209 serves for detecting movement state changes of the device 101 , In one embodiment, the triggering component detects 209 the vibration, the movement of the device 101 is associated, and shows this movement of the controller 201 when vibration changes the device 101 be recorded. In other embodiments of the present invention, the triggering component 209 an acceleration sensor, a tilt sensor, a rotation sensor, a gyro, and a motion sensor. While the present invention, these particular reactions of the triggering component 209 the present invention is also well suited to a variety of devices for detecting the movement of the device 101 to use and send a signal to the controller 201 to generate, which indicates this movement.

According to embodiments of the present invention, the triggering component detects 209 when the device 101 from a substantially stationary state to a moving state. The triggering component 209 can also capture when the device 101 from a moving state to a substantially stationary state and / or the speed of movement of the device 101 changes. Thus, the triggering component detects 209 In embodiments of the present invention, changes in the state of motion of the device 101 such as starting or stopping movement and acceleration / deceleration, and generates a break for control 201 , In response to the interruption, by the triggering component 209 received, changes the control 201 the operating state of the device 101 from an idle mode in which a few components of the device 101 a minimum amount of electricity from the power source 102 pull in an active operating state in which other components of the device 101 additional power from the power source 202 pull.

The use of a triggering component that detects motion with a position reporting device is seemingly out of line or superfluous, at least in the current position reporting environment, which relies on successive position fixes to suggest movement of the reporting device. For example, receiving a series of position reports coming from different locations suggests that the position reporting device is in motion. Alternatively, receiving a series of position reports coming from the same location suggests that the position reporting device is stationary. Therefore, it has been considered unnecessary to incorporate a motion detection component into a device that already has a contained motion detection function.

The coupling of the tripping component 209 to the position reporting device 101 is beneficial because it minimizes the time the device 101 is activated to provide position fixe to the service provider, thus extending the battery life of the device. In prior art position reporting devices, determining whether the device was moving or stationary depended on determining and comparing successive position fixes. When successive position fixes came from the same location, it was concluded that the device was stationary, and when successive position fixes came from different locations, it was concluded that the device was in motion. These position fixes had to be provided at regular intervals to provide timely notification that the device was being moved. Providing successive position fixes for a device that has not been moved, however, represents an unnecessary loss of battery power, especially if the device remains stationary for an extended period of time. Again, this is costly for users of the device who frequently need to change the batteries of the position reporting device or to couple the device to an external power source.

Many users do not have the necessary experience to couple a position reporting device to the electrical system of their vehicle and therefore choose not to use it. In addition, many potential users have stated that they are unwilling to alter their vehicle's electrical system to install a position reporting device. The present invention overcomes these hurdles using a built-in power source and to provide a method of reducing the power consumption of the position reporting device to facilitate the maintenance of the device. Embodiments of the present invention overcome these limitations by providing a battery operated position reporting device that draws minimal current when the device is not moved, thus extending the battery life of the device.

The control 201 is also at a store 210 coupled. The memory 210 can be used to store instructions and position information provided by the positioning component 206 have been determined. This allows embodiments of the device 101 save a log of positions it has been in for a period of time.

The interrogator 211 is used for wireless communication with the RFID tag 130 and accessing information (for example, a serial number or other identification of an asset, such as a vehicle 120 ) stored on it. In addition, the interrogator transmits 211 this information to the controller 201 who then send this information to the service provider 104 can trigger. The interrogator 211 also serves to wirelessly transmit data (eg, geographic location data) to the RFID tag 130 that can be stored on it.

In embodiments of the present invention, the controller is 201 , the power source 202 , the wireless communication component 203 , the position determining component 206 , the triggering component 209 , the memory 210 and the interrogator 211 in a housing 250 arranged. The housing 250 Determines a portable package that allows the device 101 can simply be hidden in or on the asset it is monitoring.

It is important that the device 101 small enough to be hidden from consideration. When the position reporting device 101 is so large that it is easily visible, it can be destroyed by vandalism or removed by someone who is trying to steal the asset that is being monitored. Current GPS receivers are in the range of about one inch by one inch (1 "x 1") with a thickness of a few millimeters. Today's radio modems today are approximately three and a half by two inches (3½ '' x 2 '') with a thickness of a few millimeters. In one embodiment, thus, the device 101 up to three times four inches (3 "x 4") in size, less than one inch thick. This size allows the device 101 can be easily hidden in the glove compartment, under a car seat or in the trunk of a vehicle. In addition, the device 101 Wearable enough, for example, to be hidden in a briefcase or a backpack.

Because the device 101 while monitoring an asset may be left unattended for extended periods of time, the need for a user interface on the device 101 minimal. The device 101 For example, it may include an LED (not shown) to indicate that the position determining component 106 receives a signal and an LED (not shown) to indicate that the wireless communication component 103 receives a signal.

In embodiments of the present invention, the position reporting device is thus 101 a portable device of small size, which determine its position and this information to the service provider 104 can send. In embodiments of the present invention, the device also becomes 101 operated by a battery or a plurality of batteries. This is advantageous because it allows a user to use the device 101 can use quickly and with minimal maintenance. For example, a user does not require any experience in electronics to the device 101 with the electrical system of the vehicle 120 to pair and does not require the services of a third party to the device 101 to install. Because embodiments of the device 101 use a self-contained power supply, it can also be used to monitor the position of assets that usually do not have their own power supply, such as golf clubs, a backpack, a briefcase, etc. Embodiments of the present invention use a triggering component, which detects when the Device is moved and generates a signal that triggers the activation of the device. This reduces the current drain in the present invention and therefore extends the battery life of the position reporting device.

3 is a diagram showing the operating states of a portable Position reporting device 101 according to embodiments of the present invention. In operating state S1 of 3 is the device 101 in an idle mode. In embodiments of the present invention, when the device 101 when idle, the only components that draw power are a real time clock and the trip component (eg, the trip component) 209 from 2 ). This allows the device 101 remains in an operating state in which a minimum amount of current from the power source 202 is pulled. In embodiments of the present invention, only up to 10 μA are drawn while the device is being pulled 101 in idling mode S1. Because the battery drain in the operating state S1 is minimized, the battery replacement interval for the device 101 extended.

At the event 301 from 3 detects the triggering component 209 a movement and generates an interruption to the control of the device 101 (eg the controller 201 from 2 ). In response to the interruption of the triggering component 209 initiates the control 201 the device 101 to move to operating state S2. The operating state S2 is an active operating state of the device 101 in which the device 101 tried using a positioning component 206 to get a position fix of their geographic location. In embodiments of the present invention, when the device 101 in the operating state S2, the wireless communication component 203 , the position determining component 206 and the interrogator 211 Electricity from the power source 202 , The control 201 initiates the interrogator 211 to try using an RFID tag (eg 130 ) communicate in the area of the device 101 located. When communicating with the RFID tag 130 is triggered, the serial number or other identification of an asset (for example, the vehicle 120 ) wirelessly to the interrogator 211 transmitted. The control 201 also causes the component 206 to try to find the location of the device 101 to determine and, if successful, the position of the vehicle 120 , the identification number of the vehicle 120 (eg received via the interrogator 211 ) and / or a serial number of the device 101 via the wireless communication component 203 to the service provider 104 to send. In embodiments of the present invention, the current drain during the operating state S3 is estimated to be 70 mA while the device 101 determines her location, and to 400 mA while she sends her position.

At event 302 from 3 the device goes 101 in the operating state S4 via. According to embodiments of the present invention, the device goes 101 from the operating state S2 to the operating state S4 via after its position has been transmitted successfully or after a predetermined period of time. For example, if the device 101 successfully their location using the component 206 determines, then sends her position to the service provider 104 , Alternatively, if a predetermined period of time expires before the device 101 successfully determines their position, sends the device 101 a message to the service provider 104 and communicates that it has been moved but was unable to position itself using the component 206 to determine and then go to the operating state S4. The predetermined period of time may be a default setting by the user of the device 101 or by the service provider 104 is made.

While in the operating state S4, the device is located 101 in a polling state and may provide commands and operating parameters from the service provider 104 receive. At this time, the operating parameters of the device 101 be changed. For example, the period in which it is the component 206 possible, the position of the device 101 to be changed during the operating state S4. In one embodiment, while the device is pulling 101 in the operating state S4, only the wireless communication component 203 Electricity from the power source 202 , This again reduces the amount of power that comes from the power source 202 is pulled and extends the battery life of the device 101 , It is appreciated that in embodiments of the present invention, the device 101 draws approximately 5 mA of current while in operating state S4.

After getting commands and / or operating parameters from the service provider 104 received, the device goes 101 at event 303 in the operating state S5 via. The operating state S5 is a delay state in which the device 101 is forced to remain idle for a predetermined period of time. This provides a time interval for repeated position fixes of the device 101 and prevents the device 101 excessive battery power from the power source 202 in trying to continually determine their position while being moved. In embodiments of the present invention, the device pulls 101 only up to 10 μA of current while in S5 mode. The predetermined period of time is an operating parameter that may be a default set by the user of the device 101 or by the service provider 104 is set.

The length of the predetermined period of the operating state S5 may be during the polling operating state (eg, operating state S4) as a result of receiving operating parameters from the service provider 104 be changed. In one embodiment, if the service provider 104 determines that an unauthorized movement of the device 101 takes place, the length of the period during the operating state S4 are changed to the device 101 to persuade their position continually or more frequently to the service provider 104 to send. This allows for the localization and recovery of the asset that the device 101 supervised. After the predetermined period of time has elapsed, the device changes 101 at event 304 again in the operating state S1 and can repeat the process described above, if the tripping component 209 that captures the device 101 is moved.

Alternatively, if a period goes 305 expires before the triggering component 209 the movement captures the device 101 in the operating state S3 via. The period 305 may be a default setting, a predetermined parameter set by the user of the device 101 or by the service provider 104 was preset. In embodiments of the present invention, the device reports 101 their status to the service provider 104 while in S3 mode. This allows the service provider 104 to check if the device 101 still working correctly. Information sent during the operating state S3 may include the current time, the position, the operating parameters of the device 101 and / or the identity of the asset being monitored. In addition, the device can 101 Send battery / status information during the S3 operating state. This allows the service provider 104 , the battery status of the device 101 to monitor and the user of the device 101 to inform when the batteries need to be changed. For example, the service provider may send an e-mail or other message to the user of the device 101 and remind him to change the batteries of the device if necessary. In embodiments of the present invention, only the wireless communication component pulls 203 in the operating state S3 current from the power source 202 , The current drain from the power source 202 is estimated to be 400 mA during the operating state S3 in embodiments of the present invention.

At event 306 the device goes 101 in the operating state S4 via. As previously described, the device may 101 in the operating state S4 commands and parameters from the service provider 104 receive. While it is in operating state S4, the length of the period can be 305 be changed. After that, the device goes 101 at the event 303 in the operating state S5 over, in which the device 101 remains in a forced idle state for a predetermined period of time. When the predetermined period expires, the device goes 101 at event 304 in the operating state S1 via.

According to the aforementioned power consumption figures and assuming that the power source 202 four AA alkaline batteries (assuming a 5000 mAh total capacity) is estimated to be the device 101 has a battery life of up to six months or more using current radio and GPS technology. This is done assuming that the asset is the device 101 monitored, two hours a day in motion and the positioning component 206 the geographical location of the device 105 determined at 15-minute intervals. This implies a substantial increase in battery life over prior art positioning devices, particularly for a portable device that is not coupled to an external power source.

With renewed reference to 1 pulls the device 101 while in idle mode S1, in embodiments of the present invention, a minimum amount of current from its power source. For example, the device pulls 101 in one embodiment, only enough power to drive a trip component and a real-time clock. If the triggering component 209 detects the movement, it generates an interruption to the controller 201 , In response to this interruption, the controller initiates 201 the device 101 to move to the active operating state S2. The device 101 then automatically tries on the RFID tag 130 to determine the identity of the asset being monitored. The device 101 also attempts to automatically using a positioning system (eg, the positioning system 102 or 103 ) to determine their position. According to embodiments of the present invention, the position determining system 102 a terrestrial based positioning system. There are a variety of terrestrial based positioning systems that may be utilized by embodiments of the present invention, such as LORAN-C, Decca, radio beacons, etc. Moreover, the present invention is well suited to exploit future terrestrial based positioning system implementations.

In other embodiments of the present invention, the device uses 101 a satellite-based positioning system 103 , around to determine their position. There are a variety of satellite-based positioning systems that may be utilized by embodiments of the present invention, such as the Global Positioning System (GPS), Differential GPS (DGPS), Eurofix DGPS, the Global Navigation Satellite System (GLONASS), etc. In addition, the invention well suited to exploit future implementations of satellite-based positioning systems.

Typically, the device tries 101 determine their position within a predetermined time period and the serial number or other identification of the asset being monitored. When the device 101 can not determine its position within the predetermined time period, it automatically becomes a "no-fix" message to the position tracking service provider 104 send. The no-fix message is sent to the service provider 104 that the device 101 a movement of the vehicle 120 and that its position is determined using a position-determining system (eg the position-determining system 102 or 103 ) could not be determined within the predetermined time period. However, in embodiments of the present invention, the position of the device 101 are matched with the radio ID sector information contained in the SMS message or roughly triangulated using a plurality of radio towers.

When the device 101 successfully determines its position within the predetermined time period, it automatically sends a "fix" message to the service center 104 which provides the current time and location of the device as well as the serial number or other identification of the asset being monitored. The device 101 will then continue to determine its position at regular intervals and sends this position information to the service provider 104 while the triggering component 209 that captures the device 101 is moved. This allows the service provider 104 , the device 101 and thus the asset that the device 101 monitors, track when being moved. The period between position fixes is determined by the predetermined period of the operating state S5 of 3 certainly.

In one embodiment, when the triggering component 209 the device 101 recorded that the vehicle 120 is no longer moved, it sends an interrupt to the controller 201 indicating the absence of the movement. In response to this information, the controller initiates 201 the device 101 to automatically determine their position and this position information along with the current time to the service provider 104 to send. The device 101 may also include information in this message stating that it is no longer in motion.

In addition, the fix and no-fix messages can provide additional information, such as the current operating parameters and the battery condition of the device 101 , include. By transmitting the battery status information, the present invention minimizes the amount of maintenance that a user incurs in order to use the device 101 continues to work properly. The service provider 104 For example, it may send a message to the user reminding him to put the batteries in the device 101 if it has determined that the batteries are exhausted. In one embodiment of the present invention, a text message may be sent to the mobile phone 105 can be sent to the user or an e-mail message can be sent to the home or office computer 106 be sent to the user, who reminds him of the batteries in the device 101 replaced.

In embodiments of the present invention, when the service provider 104 the position fix message from the device 101 It compares the data in the message with a set of predetermined positional parameters set by the user of the device 101 were set. When the position of the device 101 is outside the predetermined positional parameters, a message may be sent to the user and / or enforcement authorities telling them that the asset is the device 101 monitored, outside the approved position parameters has been moved. In addition, the service provider 104 the position of the device 101 and a description of the asset to assist in the recovery of the asset. In addition, the service provider 104 the operating parameters of the device 101 During operation, change S4 so that position fixes are sent more frequently to assist in recovering the asset being monitored.

When a user uses the device 101 For example, the service provider asks 104 after the approved position of the device 101 and can ask the user if he wants to use geofencing. The user becomes the approved position for the device 101 and when the user chooses to use geofencing, can enter positional parameters that specify an area in which the device is located 101 without triggering a warning message to the user. For example, if the vehicle 120 is moved outside this position or range, the service provider continues 104 with the user and / or the enforcement authorities in Connection and informing them that an unauthorized movement of the vehicle 120 occured. The service provider 104 can send a text message to the mobile phone 105 of the user, an e-mail to the computer 106 of the user, etc. As previously described, the service provider may 104 Send commands indicating the operating parameters of the device 101 to encourage them to send position reports more frequently when an unauthorized movement of the asset is recorded to assist in recovering the asset.

The user may also provide timing parameters that specify the periods in which the device will be 101 is located at a particular position or within a specified range. For example, the user may provide the time and route of his daily commute. While commuting to work, the time and location information shared by the device 101 be sent to the service provider 104 with that the vehicle is 120 is within its approved range as specified by the time and position parameters. If the vehicle 120 however, is moved to a different time than specified by the user's parameters (e.g., at 12:00 on a business day), the service provider becomes 104 contact the user and / or the law enforcement agencies to inform them that the device 101 an unauthorized movement of the vehicle 120 has recorded.

When the device 101 is able to successfully determine its position using a positioning system, in one embodiment, the position will be in memory 210 logged. A user could then use the device 101 use to keep track of where the vehicle is going 120 was driven in a given period. This may be used, for example, by car rental agencies or insurance companies to bill a customer according to the number of kilometers within a given time period.

After sending a fix or no-fix message to the service provider 104 Embodiments of the present invention then enter the polling state S4 during which the device 101 Commands and information from the service provider 104 can receive. For example, when a user decides the operating parameters of the device 101 change how the time interval to try to get their position from the positioning system 102 or 103 To determine the new parameters at this time can be sent to the device 101 be sent. As another example, the service provider 104 a command for the device 101 send the contents of the location log to memory in memory 210 is stored. In addition, the service provider 104 if an unauthorized movement of the vehicle 120 was detected, send a command indicating the operating parameters of the device 101 changes and causes you, for example, to send more or less positional information to recover the vehicle 120 to facilitate.

According to embodiments of the present invention, the device 101 also be configured to periodically provide status reports to the position tracking service provider 104 to check that it is working correctly. For example, when a predetermined period of time has elapsed, control in the device causes 101 the device to go into the active operating state S2 and a status report to the service provider 104 to send. The information contained in the status report can be the current time, the position of the device 101 , the current operating parameters, the battery status of the device 101 and / or the identity of the asset being monitored. Having a status report to the service provider 104 was sent, gives the device 101 query state S4 as described above to receive commands and parameter information.

In embodiments of the present invention, the device 101 only the serial number or other identifications of the vehicle 120 send if it detects that it has been moved to another vehicle. For example, a car rental agency maintaining a vehicle fleet may use the device 101 move from a first car that is not in use to a second car that is being rented by a customer. Before the customer leaves with the vehicle, an employee of the leasing agency can take the device 101 move from the first vehicle to the second vehicle. When the device 101 is moved, detects the triggering component 209 the movement and causes the device to go into an active operating state. As indicated previously, the interrogator attempts 211 when the device 101 goes into an active operating state, with the RFID tag 130 to communicate. In the present example, the interrogator communicates 211 with the RFID tag in the first vehicle from which the device 101 is moved, and receives identification information from the RFID tag.

When the device 101 is moved to the second vehicle, detects the triggering component 209 again the movement or the end of the movement of the device 101 , The device 101 is again caused to go into an active operating state in which the interrogator 211 automatically tries to communicate with an RFID tag. In this instance mm communicates with the interrogator 211 with the RFID tag of the second vehicle and automatically receives information that uniquely identifies the second vehicle. The device 101 then sends these identifications as well as geographic location data to the service provider 104 , It is shown that in embodiments of the present invention, the service provider 104 may be the owner of the asset being monitored. After that, the device sends 101 only geographical position data to the service provider 104 until she realizes that she has been moved to a new vehicle. Similarly, if the device 101 determines that they are not using the RFID tag 130 can communicate, she can report to the service provider 104 including the current time and the geographical position of the device. If someone has the vehicle 120 steals and tries the device 101 From the vehicle, therefore, a report is sent automatically which may allow to inform enforcement authorities to recover the vehicle.

4 FIG. 10 is a flow chart of a method for monitoring the geographic location of an asset in accordance with embodiments of the present invention. FIG. In step 410 from 4 the movement of a portable position reporting device is detected using a triggering component located in the position reporting device. According to embodiments of the present invention, a triggering component (for example, the triggering component 209 from 2 ) in a housing (eg the housing 250 from 2 ) of the portable position reporting device 101 arranged. The triggering component 209 serves for detecting movement state changes of the device 101 , For example, the triggering component 209 capture when the device 101 from a state of motion to a substantial state of motion and / or the speed of movement of the device 101 changes. Thus, the triggering component detects 209 in embodiments of the present invention, movement state changes of the device 101 such as starting or stopping movement, as well as acceleration / deceleration.

In step 420 from 4 For example, the control is displayed to a controller located in the portable position reporting device. In one embodiment, the triggering component detects 209 the vibrations, the movement of the device 101 belong and shows a controller 201 that in the device 101 is arranged, this motion, when motion changes are detected.

In step 430 from 4 the portable position reporting device will respond in response to the display of step 420 activated. In embodiments of the present invention, when the triggering component 209 detects a movement, it generates an interruption to the controller 201 , In response to the interruption of the trip component 209 , initiates the control 201 the device 101 to enter an active operating state (eg operating state S2 of 3 ).

Coupling a triggering component that detects motion to the device 101 is a novel method of reducing power consumption, because it allows the device 101 constantly monitors an asset while receiving a minimum amount of electricity from the power source 202 draws. In embodiments of the present invention, only one real time clock pulls the controller 201 and a triggering component 209 Electricity while the device 101 in idle mode. The device 101 try as long as not to determine their geographic location until the triggering component 209 detects that it is being moved. This minimizes the number of position fixes that draw much larger amounts of current.

In step 440 from 4 For example, an identity unique to an asset is automatically received using a query broadcast component located in the portable position reporting device. In embodiments of the present invention, the triggering component generates 209 if it detects a movement, it will interrupt the control 201 , In response to the interruption of the trip component 209 initiates the control 201 the device 101 to enter an active operating state (eg operating state S2 of 3 ).

In embodiments of the present invention, only one real time clock pulls the controller 201 and a triggering component 209 Electricity while the device 101 is in an idle mode. The device 101 do not try with the RFID tag 130 to communicate, provided the triggering component 209 does not detect that it is being moved. Thus, attempts to automatically determine the identity of the asset under surveillance, which draw much larger amounts of electricity, are minimized.

In embodiments of the present invention, the interrogator transmitter component attempts 211 when the device is 101 is in an active operating state, with the RFID tag 130 communicate to access information stored thereon that identifies the asset being monitored (eg, the vehicle 120 ). In other words, the position reporting device automatically accesses identity information of a monitored asset in response to detecting movement of the position reporting device 101 to. Because this is in response to detecting movement of the position reporting device 101 takes less electricity from the power source 202 pulled, which extends the life of the batteries.

Thus, embodiments of the present invention, a portable motion-activated position reporting device, are described.

Claims (34)

Portable motion-activated position reporting device ( 101 ), comprising: a controller ( 201 ); a query broadcast component ( 211 ) with the controller ( 201 ) is automatically coupled using a wireless communication system with a data storage device ( 130 ) in which an identity unique to the object is stored, communicating and receiving the identity; a positioning component ( 206 ) with the controller ( 201 ) and for determining a geographical location of the position reporting device ( 101 ) serves; a wireless communication component ( 203 ) with the controller ( 201 ) and for sending a message conveying the identity and the geographical location; and a triggering component ( 209 ) with the controller ( 201 ) is coupled to send a signal to the controller ( 201 ) when the triggering component ( 209 ) a movement of the position reporting device ( 101 ), whereby the controller ( 201 ) the query transmitter component ( 211 ) and the position reporting device ( 101 ) is activated in response to the signal. Position reporting device ( 101 ) according to claim 1, which is capable of determining the determined geographical position information in the data storage device ( 130 ) save. Position reporting device ( 101 ) according to claim 1, further comprising a housing ( 250 ), which forms a portable package, whereby the controller ( 201 ), the query sender component ( 211 ), the positioning component ( 206 ), the wireless communication component ( 203 ) and the triggering component ( 209 ) in the housing ( 250 ) are arranged. Position reporting device ( 101 ) according to claim 1, wherein the position determining component ( 206 ) the geographical location using a satellite-based positioning system ( 103 ) certainly. Position reporting device ( 101 ) according to claim 1, wherein the position determining component ( 206 ) the geographic location using a terrestrial based positioning system ( 102 ) certainly. Position reporting device ( 101 ) according to claim 1, wherein the controller ( 201 ) automatically determines the positioning component ( 206 ) causes the geographic location to be determined and the interrogator ( 211 ) to receive the identity when the position reporting device ( 101 ) is activated in response to the signal. Position reporting device ( 101 ) according to claim 6, wherein the controller ( 201 ) automatically the wireless communication component ( 203 ) causes the message to be sent if the geographic location is determined within a predetermined time parameter. Position reporting device ( 101 ) according to claim 7, wherein the controller ( 201 ) the wireless communication component ( 203 ) to send a second message when the positioning component ( 206 ) can not determine the geographic location within the predetermined time parameter. Position reporting device ( 101 ) according to claim 1, wherein the triggering component ( 209 ) is selected from the group comprising an acceleration sensor, a tilt sensor, a vibration sensor, a gyro, and a motion sensor. Position reporting device ( 101 ) according to claim 1, wherein the controller ( 201 ) automatically the wireless communication component ( 203 ) causes a third message to be sent when the triggering component ( 209 ) no movement of the position reporting device ( 101 ) within a predetermined time parameter. Position reporting device ( 101 ) according to claim 1, wherein the controller ( 201 ) automatically the wireless communication component ( 203 ) causes a fourth message to be sent when the query sender component ( 211 ) can no longer automatically receive the identity. Position tracking system ( 100 ), full: a data storage device ( 130 ) located on an object for storing an identity that is unique to the object; a position tracking service provider ( 104 ); and a position reporting device ( 101 ), comprising: a controller ( 201 ); a query broadcast component ( 211 ) with the controller ( 201 ) is automatically coupled to the data storage device (using a wireless communication system). 130 ) communicate and receive the identity; a positioning component ( 206 ) with the controller ( 201 ) and for determining a geographical location of the position reporting device ( 101 ) using a positioning system ( 102 . 103 ) serves; a wireless communication component ( 203 ) with the controller ( 201 ) and for sending a message conveying the identity and geographical location to the position tracking service provider ( 104 ) transmitted; and a triggering component ( 209 ) with the controller ( 201 ) is coupled to send a signal to the controller ( 201 ) when the triggering component ( 209 ) a movement of the position reporting device ( 101 ), whereby the controller ( 201 ) the position reporting device ( 101 ) is activated in response to the signal. Position tracking system ( 100 ) according to claim 12, wherein the position reporting device ( 101 ) is capable of storing the determined geographical position information on the object. Position tracking system ( 100 ) according to claim 12, wherein the position reporting device ( 101 ) a housing ( 250 ), which forms a portable package, wherein the controller ( 201 ), the positioning component ( 206 ), the wireless communication component ( 203 ) and the triggering component ( 209 ) in the housing ( 250 ) are arranged. Position tracking system ( 100 ) according to claim 12, wherein the position determining system ( 102 . 103 ) a satellite-based positioning system ( 103 ). Position tracking system ( 100 ) according to claim 12, wherein the position determining system ( 102 . 103 ) a terrestrial based positioning system ( 102 ). Position tracking system ( 100 ) according to claim 12, wherein the controller ( 201 ) automatically determines the positioning component ( 206 ) causes the geographic location using the positioning system ( 102 . 103 ) in response to the signal. Position tracking system ( 100 ) according to claim 17, wherein the controller ( 201 ) automatically the wireless communication component ( 203 ) causes the message to be sent to the position tracking service provider ( 104 ) when the geographic location is determined within a predetermined time parameter. Position tracking system ( 100 ) according to claim 17, wherein the controller ( 201 ) the wireless communication component ( 203 ) causes a second message to the position tracking service provider ( 104 ) if the geographic location can not be determined within a predetermined time period. Position tracking system ( 100 ) according to claim 12, wherein the triggering component ( 209 ) is selected from the group comprising an acceleration sensor, a tilt sensor, a vibration sensor, a rotation sensor, a gyro, and a motion sensor. Position tracking system ( 100 ) according to claim 12, wherein the controller ( 201 ) automatically the wireless communication component ( 203 ) causes a third message to the position tracking service provider ( 104 ) when the triggering component ( 209 ) the movement of the position reporting device ( 101 ) has not been determined within a predetermined time parameter. Position tracking system ( 100 ) according to claim 12, wherein the data storage device ( 130 ) comprises a radio frequency identification (RFID) tag coupled to the object. Position tracking system ( 100 ) according to claim 12, wherein the controller ( 201 ) automatically the wireless communication component ( 203 ) causes a fourth message to be sent when the query sender component ( 211 ) can no longer automatically receive the identity. Procedure ( 400 ) for monitoring the geographical position of an object, the method comprising: detecting ( 140 ) movement of a portable position reporting device ( 101 ) using a triggering component ( 209 ) included in the portable position reporting device ( 101 ) is arranged; Show ( 420 ) of the movement to a controller ( 201 ) within the portable position reporting device ( 101 ) is arranged; Activate ( 430 ) of the portable position reporting device ( 101 ) in response to the display; Automatic receive ( 440 ) an identity that is unique to the object, using a query broadcast component ( 211 ) within the portable position reporting device ( 101 ) and which, using a wireless communication system, is automatically connected to a data storage device ( 130 ) communicates in which the identity is stored; Performing a position determination operation in which a geographic location of the position reporting device ( 101 ) is determined. Procedure ( 400 ) according to claim 24, comprising the further step of: storing the geographical location in the data storage device ( 130 ) on the object. Procedure ( 400 ) according to claim 24, wherein activating ( 430 ): transitioning from an idle state to an active operating state; Automatic execution of a position determination operation in which a geographical location of the position reporting device ( 101 ) is determined; and automatically sending the geographic location and identity. Procedure ( 400 ) according to claim 26, wherein said activating ( 430 ) further comprises automatically returning to the idle mode after performing the position determination operation. Procedure ( 400 ) according to claim 26, wherein said activating ( 430 ) further comprises automatically terminating the position determining operation when the position determining operation exceeds a predetermined time parameter. Procedure ( 400 ) according to claim 26, wherein the positioning operation further comprises recording the geographical location in a memory ( 210 ) included in the portable position reporting device ( 101 ) is arranged. Procedure ( 400 ) according to claim 26, wherein the sending comprises sending the geographical location and the identity using a wireless communication device ( 203 ) included in the portable position reporting device ( 101 ) is arranged. Procedure ( 400 ) according to claim 26, wherein said position determining operation comprises the benefit of a satellite-based positioning system ( 103 ) to determine the geographic location of the portable position reporting device ( 101 ). Procedure ( 400 ) according to claim 26, wherein the position determining operation comprises the benefit of a terrestrial based positioning system ( 102 ) to determine the geographic location of the portable position reporting device ( 101 ). Procedure ( 400 ) according to claim 24, further comprising: storing the identity in the data storage device ( 130 ). Procedure ( 400 ) according to claim 33, wherein the data storage device ( 130 ) comprises a radio frequency identification (RFID) tag, and wherein automatically receiving the identity further comprises: wirelessly accessing the RFID tag using the interrogator transmitter component ( 211 ).

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